A: Inner wall of Bowman's capsule is lined with specialized cells - podocytes having a number of projections
R: These projections increases the suface area from absorptions.

Complete the following paragraph by filling in the blanks (i) to (x) with appropriate words: (1) ............ is the upper U-shaped tube of the small intestine. It gets bile juice from (ii)............. and pancreatic juice from pancreas through a common bile duct. Bile makes the medium (iii) ................ and (iv) ................. fat. Pancreatic juice contains pancreatic (v) ................. Duodenum leads into a coiled tube called (vi) ................. (vii) ............... is the highly coiled part of intestine and opens into the (viii) ................. In jejunum and ileum, the partially digested food gets mixed with intestinal juice called (ix) .............. The inner lining of ileum has a number of finger like projections called (x) ................, which increases the surface area for absorption.

The range for a projectile that lands at the same elevation from which it is fired is given by R = (u^(2)//g) sin 2theta . Assume that the angle of projection = 30^(@) . If the initial speed of projection is increased by 1% , while the angle of projection is decreased by 2% then the range changes by

A projectile of range R bursts at its highest point in two fragments, Both pieces at the time of bursts have the velocity in the horizontal direction. The heavier is double the mass of the figther. Lighter frangments falls at (R)/(2) horizontal distance from the point of projection in the opposite side of projection. The distance. where other part falls, from point of projection.

Two uniform soild spheres of equal radii R but mass M and 4M have a centre to centre separation 6 R , as shows in Fig. (a) The two spheres are held fixed. A projectile of mass m is projected from the surface of the sphere of mass M directly towards the centre of teh second. Obtain an expression for the minimum speed upsilon of the projectile so that it reaches the surface of second sphere.

Two uniform soild spheres of equal radii R but mass M and 4M have a centre to centre separation 6 R , as shows in Fig. (a) The two spheres are held fixed. A projectile of mass m is projected from the surface of the sphere of mass M directly towards the centre of teh second. Obtain an expression for the minimum speed upsilon of the projectile so that it reaches the surface of second sphere.

A particles is projected from the foot of an inclined plane having inclination 45^(@) , with the velocity u at angle theta( gt 45^(@)) with the horizontal in a vertical plane containing the line of greatest slope through the point of projection. Find the value of tantheta if the particle stikes the plane. (i) Horizontally (ii) Normally

Which of the following statement are false ? (a) Most cells are tiny with volume range of 1-100 nm^(3) (b) Some cells have microvilli to increases the absorptive surface area (c) All cells arise from pre-existing cells (d) In plants, translocation of solutes is performed by xylem vessels and tracheids (e) According to cell theory, all cells arise from abiotic material

Two large rigid vertical walls A and B are parallel to each other and separated by 10m . A particle of mass 10g is projected with an initial velocity of 20m//s at 45^@ to the horizontal from point P on the ground, such that AP=5m . The plane of motion of the particle is vertical and perpendicular to the walls. Assuming that all the collisions are perfectly elastic, find the maximum height attained by the particle and the total number of collisions suffered by the particle with the walls before it hits ground. Take g=10m//s^2 .

Eight charges each of value q are placed on a ring of radius R placed in x - y plane with origin at centre . A - q charge having mass m is projected from z=oo towards the centre of the ring with velocity v . The velocity of - q when it reaches the centre of ring is (neglect gravity)

Figure shows a rod of length L which is uniformly charged with linear charge density lambda kept on a smooth horizontal surface. Right end of rod in contact with a vertical fixed wall. A block of mass m and charge q is projected with a velocity v from a point very far from rod in the line of rod. find the distance of closest approach between the block & the left end A of the rod.